Army scientists have designed and developed a realistic dog sleeve trainer to bite to improve the performance of military and civilian K9. Military working dogs often play an important role in military operations.
Dogs operate within the military in a wide range of capabilities, including security, patrols, explosives detection, surveillance, search and rescue, guard, guard and tactical duties. Trainers use bite training on military working dogs to help curb the perpetrator. It can also eliminate the need to use a weapon.
Stephen Lee, a researcher at the Army Research Bureau who is part of the US Army̵7;s Military Capabilities Research Laboratory, has led sleeve research and holds a patent for his work. This product was developed with students from Wilson College of Textiles and a Senior Science and Engineering Course in Design at North Carolina State University to support the command of special operations of the U.S. military at Fort Bragg, North Carolina.
“Military working dogs are a very important member of the team and their training is just as important,” said Lee. “These invaluable dogs have provided incomparable support to help soldiers fulfill their mission and save the soldier’s lives. This new training tool for biting the sleeves has greatly helped in the development of effective fighting dogs. “
Most current baits for training with bites are too bulky to conceal, which makes it difficult to train dogs in real situations. Other sleeves are made of materials such as jute, which do not provide a truly realistic training scenario and can reduce the hesitation of dogs to the target due to hesitation. Silicone bite products require the trainer to attach additional accessories to the sleeve that limit training scenarios, eliminate realistic concealment, and possibly confusing dog teeth.
The new bitten sleeve gives military working dogs an authentic structure of human skin when biting the forearm and reducing the circumference of the target. This allows for a biting mouth and a more realistic training scenario for canines.
“Working with ARO on this project was a great experience for the participating students,” said Dr. Jesse Jur, Associate Professor of Textile Engineering, Chemistry and Natural Sciences at Wilson College of Textiles, NC. “Everyone was inspired to improve the skills of a military working dog. The goals of the project were challenging and required multidisciplinary team efforts in terms of textile and materials engineering. “
Ensuring the safety of dogs and their handlers was a key aspect in product design. The research team ensured that the selected materials were not non-toxic to dogs and that the selected materials were puncture resistant for the handler.
The bite case consists of an outer silicone skin paired with an inner leather case. The skin is a proprietary silicone product of prosthetic quality that looks and looks like human flesh and has an internal support system of the eye for resistance. The inner case is a low-profile bite platform constructed of pressure-dissipating foam and several layers of Kevlar fabric to allow a full-bite bite, and two adjustable straps allow each trainer to adjust.
The US Army Special Operations Command is currently using a bite sleeve for training.
Other inventors mentioned in the patent are Paul Reid, ARO’s technical support provider for systems and technical assistance, Dr. Albena Ivanisevic, ARO Program Manager, who worked on technology at the faculty in the state of NC, US Army Special Operations Command Soldiers, NC State University students and professors of textile engineering Dr. Jess Jur and Dr. Russell Gorga, who advised the project teams.
With military funding, Campbell University researchers are making further progress in the concept and creating an even more realistic skin that bleeds from artificial blood after a bite. Kinston Police Department successfully tested the prototype earlier this year.
Military working dogs can protect innovative hearing protectors
Provides an Army Research Laboratory
Citations: Scientists Develop Realistic Dog Bite Cover to Improve Training (2020, July 29) Obtained on July 31, 2020 from https://phys.org/news/2020-07-scientists-realistic-canine-sleeve.html
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